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#!/usr/bin/python2.6 -u
# -*- coding: utf-8 -*-
# Copyright (C) 2001-2008 Anthony Towns <ajt@debian.org>
# Andreas Barth <aba@debian.org>
# Fabio Tranchitella <kobold@debian.org>
# Copyright (C) 2010-2012 Adam D. Barratt <adsb@debian.org>
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
"""
= Introdution =
This is the Debian testing updater script, also known as "Britney".
Packages are usually installed into the `testing' distribution after
they have undergone some degree of testing in unstable. The goal of
this software is to do this task in a smart way, allowing testing
to be always fully installable and close to being a release candidate.
Britney's source code is split between two different but related tasks:
the first one is the generation of the update excuses, while the
second tries to update testing with the valid candidates; first
each package alone, then larger and even larger sets of packages
together. Each try is accepted if testing is not more uninstallable
after the update than before.
= Data Loading =
In order to analyze the entire Debian distribution, Britney needs to
load in memory the whole archive: this means more than 10.000 packages
for twelve architectures, as well as the dependency interconnections
between them. For this reason, the memory requirements for running this
software are quite high and at least 1 gigabyte of RAM should be available.
Britney loads the source packages from the `Sources' file and the binary
packages from the `Packages_${arch}' files, where ${arch} is substituted
with the supported architectures. While loading the data, the software
analyzes the dependencies and builds a directed weighted graph in memory
with all the interconnections between the packages (see Britney.read_sources
and Britney.read_binaries).
Other than source and binary packages, Britney loads the following data:
* BugsV, which contains the list of release-critical bugs for a given
version of a source or binary package (see Britney.read_bugs).
* Dates, which contains the date of the upload of a given version
of a source package (see Britney.read_dates).
* Urgencies, which contains the urgency of the upload of a given
version of a source package (see Britney.read_urgencies).
* Hints, which contains lists of commands which modify the standard behaviour
of Britney (see Britney.read_hints).
For a more detailed explanation about the format of these files, please read
the documentation of the related methods. The exact meaning of them will be
instead explained in the chapter "Excuses Generation".
= Excuses =
An excuse is a detailed explanation of why a package can or cannot
be updated in the testing distribution from a newer package in
another distribution (like for example unstable). The main purpose
of the excuses is to be written in an HTML file which will be
published over HTTP. The maintainers will be able to parse it manually
or automatically to find the explanation of why their packages have
been updated or not.
== Excuses generation ==
These are the steps (with references to method names) that Britney
does for the generation of the update excuses.
* If a source package is available in testing but it is not
present in unstable and no binary packages in unstable are
built from it, then it is marked for removal.
* Every source package in unstable and testing-proposed-updates,
if already present in testing, is checked for binary-NMUs, new
or dropped binary packages in all the supported architectures
(see Britney.should_upgrade_srcarch). The steps to detect if an
upgrade is needed are:
1. If there is a `remove' hint for the source package, the package
is ignored: it will be removed and not updated.
2. For every binary package built from the new source, it checks
for unsatisfied dependencies, new binary package and updated
binary package (binNMU) excluding the architecture-independent
ones and the packages not built from the same source.
3. For every binary package built from the old source, it checks
if it is still built from the new source; if this is not true
and the package is not architecture-independent, the script
removes it from testing.
4. Finally, if there is something worth doing (eg. a new or updated
binary package) and nothing wrong it marks the source package
as "Valid candidate", or "Not considered" if there is something
wrong which prevented the update.
* Every source package in unstable and testing-proposed-updates is
checked for upgrade (see Britney.should_upgrade_src). The steps
to detect if an upgrade is needed are:
1. If the source package in testing is more recent the new one
is ignored.
2. If the source package doesn't exist (is fake), which means that
a binary package refers to it but it is not present in the
`Sources' file, the new one is ignored.
3. If the package doesn't exist in testing, the urgency of the
upload is ignored and set to the default (actually `low').
4. If there is a `remove' hint for the source package, the package
is ignored: it will be removed and not updated.
5. If there is a `block' hint for the source package without an
`unblock` hint or a `block-all source`, the package is ignored.
6. If there is a `block-udeb' hint for the source package, it will
have the same effect as `block', but may only be cancelled by
a subsequent `unblock-udeb' hint.
7. If the suite is unstable, the update can go ahead only if the
upload happened more than the minimum days specified by the
urgency of the upload; if this is not true, the package is
ignored as `too-young'. Note that the urgency is sticky, meaning
that the highest urgency uploaded since the previous testing
transition is taken into account.
8. If the suite is unstable, all the architecture-dependent binary
packages and the architecture-independent ones for the `nobreakall'
architectures have to be built from the source we are considering.
If this is not true, then these are called `out-of-date'
architectures and the package is ignored.
9. The source package must have at least a binary package, otherwise
it is ignored.
10. If the suite is unstable, the new source package must have no
release critical bugs which do not also apply to the testing
one. If this is not true, the package is ignored as `buggy'.
11. If there is a `force' hint for the source package, then it is
updated even if it is marked as ignored from the previous steps.
12. If the suite is {testing-,}proposed-updates, the source package can
be updated only if there is an explicit approval for it. Unless
a `force' hint exists, the new package must also be available
on all of the architectures for which it has binary packages in
testing.
13. If the package will be ignored, mark it as "Valid candidate",
otherwise mark it as "Not considered".
* The list of `remove' hints is processed: if the requested source
package is not already being updated or removed and the version
actually in testing is the same specified with the `remove' hint,
it is marked for removal.
* The excuses are sorted by the number of days from the last upload
(days-old) and by name.
* A list of unconsidered excuses (for which the package is not upgraded)
is built. Using this list, all of the excuses depending on them are
marked as invalid "impossible dependencies".
* The excuses are written in an HTML file.
"""
import os
import re
import sys
import string
import time
import optparse
import urllib
import apt_pkg
from functools import reduce
from operator import attrgetter
if __name__ == '__main__':
# Check if there is a python-search dir for this version of
# python. If so, use the britney module for that.
mdir = os.path.dirname(sys.argv[0])
if sys.version_info[0] == 3:
python_dir = "python3"
else:
python_dir = "python2.%d" % (sys.version_info[1])
idir = os.path.join(mdir, python_dir)
if os.path.isdir(idir):
print "N: Loading from %s" % python_dir
# Insert in front (else current dir is before it, which makes
# it useless).
sys.path.insert(0, idir)
from excuse import Excuse
from migrationitem import MigrationItem, HintItem
from hints import HintCollection
from britney import buildSystem
__author__ = 'Fabio Tranchitella and the Debian Release Team'
__version__ = '2.0'
# source package
VERSION = 0
SECTION = 1
BINARIES = 2
MAINTAINER = 3
FAKESRC = 4
# binary package
SOURCE = 2
SOURCEVER = 3
ARCHITECTURE = 4
PREDEPENDS = 5
DEPENDS = 6
CONFLICTS = 7
PROVIDES = 8
RDEPENDS = 9
RCONFLICTS = 10
class Britney(object):
"""Britney, the Debian testing updater script
This is the script that updates the testing distribution. It is executed
each day after the installation of the updated packages. It generates the
`Packages' files for the testing distribution, but it does so in an
intelligent manner; it tries to avoid any inconsistency and to use only
non-buggy packages.
For more documentation on this script, please read the Developers Reference.
"""
HINTS_HELPERS = ("easy", "hint", "remove", "block", "block-udeb", "unblock", "unblock-udeb", "approve")
HINTS_STANDARD = ("urgent", "age-days") + HINTS_HELPERS
HINTS_ALL = ("force", "force-hint", "block-all") + HINTS_STANDARD
def __init__(self):
"""Class constructor
This method initializes and populates the data lists, which contain all
the information needed by the other methods of the class.
"""
self.date_now = int(((time.time() / (60*60)) - 15) / 24)
# parse the command line arguments
self.__parse_arguments()
MigrationItem.set_architectures(self.options.architectures)
# initialize the apt_pkg back-end
apt_pkg.init()
self.systems = {}
self.sources = {}
self.binaries = {}
# if requested, build the non-installable status and save it
# if this or the population of self.binaries below takes a very
# long time, try increasing SIZEOFHASHMAP in lib/dpkg.c and rebuilding
if not self.options.nuninst_cache:
self.__log("Building the list of non-installable packages for the full archive", type="I")
self.sources['testing'] = self.read_sources(self.options.testing)
self.binaries['testing'] = {}
nuninst = {}
for arch in self.options.architectures:
self.binaries['testing'][arch] = self.read_binaries(self.options.testing, "testing", arch)
self.build_systems(arch)
self.__log("> Checking for non-installable packages for architecture %s" % arch, type="I")
result = self.get_nuninst(arch, build=True)
nuninst.update(result)
self.__log("> Found %d non-installable packages" % len(nuninst[arch]), type="I")
if self.options.print_uninst:
self.nuninst_arch_report(nuninst, arch)
if not self.options.print_uninst:
self.write_nuninst(nuninst)
else:
self.__log("Not building the list of non-installable packages, as requested", type="I")
# if running in --print-uninst mode, quit here
if self.options.print_uninst:
print '* summary'
print '\n'.join(map(lambda x: '%4d %s' % (len(nuninst[x]), x), self.options.architectures))
return
# read the source and binary packages for the involved distributions
# if this takes a very long time, try increasing SIZEOFHASHMAP in
# lib/dpkg.c and rebuilding
if 'testing' not in self.sources:
self.sources['testing'] = self.read_sources(self.options.testing)
self.sources['unstable'] = self.read_sources(self.options.unstable)
self.sources['tpu'] = self.read_sources(self.options.tpu)
if hasattr(self.options, 'pu'):
self.sources['pu'] = self.read_sources(self.options.pu)
else:
self.sources['pu'] = {}
if 'testing' not in self.binaries:
self.binaries['testing'] = {}
self.binaries['unstable'] = {}
self.binaries['tpu'] = {}
self.binaries['pu'] = {}
for arch in self.options.architectures:
if arch not in self.binaries['testing']:
self.binaries['testing'][arch] = self.read_binaries(self.options.testing, "testing", arch)
self.binaries['unstable'][arch] = self.read_binaries(self.options.unstable, "unstable", arch)
self.binaries['tpu'][arch] = self.read_binaries(self.options.tpu, "tpu", arch)
if hasattr(self.options, 'pu'):
self.binaries['pu'][arch] = self.read_binaries(self.options.pu, "pu", arch)
# build the testing system
self.build_systems(arch)
# read the release-critical bug summaries for testing and unstable
self.bugs = {'unstable': self.read_bugs(self.options.unstable),
'testing': self.read_bugs(self.options.testing),}
self.normalize_bugs()
# read additional data
self.dates = self.read_dates(self.options.testing)
self.urgencies = self.read_urgencies(self.options.testing)
self.hints = self.read_hints(self.options.unstable)
self.excuses = []
self.dependencies = {}
def __parse_arguments(self):
"""Parse the command line arguments
This method parses and initializes the command line arguments.
While doing so, it preprocesses some of the options to be converted
in a suitable form for the other methods of the class.
"""
# initialize the parser
parser = optparse.OptionParser(version="%prog")
parser.add_option("-v", "", action="count", dest="verbose", help="enable verbose output")
parser.add_option("-c", "--config", action="store", dest="config", default="/etc/britney.conf",
help="path for the configuration file")
parser.add_option("", "--architectures", action="store", dest="architectures", default=None,
help="override architectures from configuration file")
parser.add_option("", "--actions", action="store", dest="actions", default=None,
help="override the list of actions to be performed")
parser.add_option("", "--hints", action="store", dest="hints", default=None,
help="additional hints, separated by semicolons")
parser.add_option("", "--hint-tester", action="store_true", dest="hint_tester", default=None,
help="provide a command line interface to test hints")
parser.add_option("", "--dry-run", action="store_true", dest="dry_run", default=False,
help="disable all outputs to the testing directory")
parser.add_option("", "--control-files", action="store_true", dest="control_files", default=False,
help="enable control files generation")
parser.add_option("", "--nuninst-cache", action="store_true", dest="nuninst_cache", default=False,
help="do not build the non-installability status, use the cache from file")
parser.add_option("", "--print-uninst", action="store_true", dest="print_uninst", default=False,
help="just print a summary of uninstallable packages")
(self.options, self.args) = parser.parse_args()
# integrity checks
if self.options.nuninst_cache and self.options.print_uninst:
self.__log("nuninst_cache and print_uninst are mutually exclusive!", type="E")
sys.exit(1)
# if the configuration file exists, than read it and set the additional options
elif not os.path.isfile(self.options.config):
self.__log("Unable to read the configuration file (%s), exiting!" % self.options.config, type="E")
sys.exit(1)
# minimum days for unstable-testing transition and the list of hints
# are handled as an ad-hoc case
self.MINDAYS = {}
self.HINTS = {'command-line': self.HINTS_ALL}
for k, v in [map(string.strip,r.split('=', 1)) for r in file(self.options.config) if '=' in r and not r.strip().startswith('#')]:
if k.startswith("MINDAYS_"):
self.MINDAYS[k.split("_")[1].lower()] = int(v)
elif k.startswith("HINTS_"):
self.HINTS[k.split("_")[1].lower()] = \
reduce(lambda x,y: x+y, [hasattr(self, "HINTS_" + i) and getattr(self, "HINTS_" + i) or (i,) for i in v.split()])
elif not hasattr(self.options, k.lower()) or \
not getattr(self.options, k.lower()):
setattr(self.options, k.lower(), v)
# Sort the architecture list
allarches = sorted(self.options.architectures.split())
arches = [x for x in allarches if x in self.options.nobreakall_arches.split()]
arches += [x for x in allarches if x not in arches and x not in self.options.fucked_arches.split()]
arches += [x for x in allarches if x not in arches and x not in self.options.break_arches.split()]
arches += [x for x in allarches if x not in arches and x not in self.options.new_arches.split()]
arches += [x for x in allarches if x not in arches]
self.options.architectures = arches
self.options.smooth_updates = self.options.smooth_updates.split()
def __log(self, msg, type="I"):
"""Print info messages according to verbosity level
An easy-and-simple log method which prints messages to the standard
output. The type parameter controls the urgency of the message, and
can be equal to `I' for `Information', `W' for `Warning' and `E' for
`Error'. Warnings and errors are always printed, and information is
printed only if the verbose logging is enabled.
"""
if self.options.verbose or type in ("E", "W"):
print "%s: [%s] - %s" % (type, time.asctime(), msg)
# Data reading/writing methods
# ----------------------------
def build_systems(self, arch=None):
for a in self.options.architectures:
if arch and a != arch: continue
packages = {}
binaries = self.binaries['testing'][arch][0].copy()
for k in binaries:
packages[k] = binaries[k][:]
if packages[k][PROVIDES]:
packages[k][PROVIDES] = ", ".join(packages[k][PROVIDES])
else: packages[k][PROVIDES] = None
self.systems[a] = buildSystem(a, packages)
def read_sources(self, basedir):
"""Read the list of source packages from the specified directory
The source packages are read from the `Sources' file within the
directory specified as `basedir' parameter. Considering the
large amount of memory needed, not all the fields are loaded
in memory. The available fields are Version, Maintainer and Section.
The method returns a list where every item represents a source
package as a dictionary.
"""
sources = {}
filename = os.path.join(basedir, "Sources")
self.__log("Loading source packages from %s" % filename)
Packages = apt_pkg.TagFile(open(filename))
get_field = Packages.section.get
step = Packages.step
while step():
pkg = get_field('Package')
ver = get_field('Version')
# There may be multiple versions of the source package
# (in unstable) if some architectures have out-of-date
# binaries. We only ever consider the source with the
# largest version for migration.
if pkg in sources and apt_pkg.version_compare(sources[pkg][0], ver) > 0:
continue
sources[pkg] = [ver,
get_field('Section'),
[],
get_field('Maintainer'),
False,
]
return sources
def read_binaries(self, basedir, distribution, arch):
"""Read the list of binary packages from the specified directory
The binary packages are read from the `Packages_${arch}' files
within the directory specified as `basedir' parameter, replacing
${arch} with the value of the arch parameter. Considering the
large amount of memory needed, not all the fields are loaded
in memory. The available fields are Version, Source, Pre-Depends,
Depends, Conflicts, Provides and Architecture.
After reading the packages, reverse dependencies are computed
and saved in the `rdepends' keys, and the `Provides' field is
used to populate the virtual packages list.
The dependencies are parsed with the apt.pkg.ParseDepends method,
and they are stored both as the format of its return value and
text.
The method returns a tuple. The first element is a list where
every item represents a binary package as a dictionary; the second
element is a dictionary which maps virtual packages to real
packages that provide them.
"""
packages = {}
provides = {}
sources = self.sources
filename = os.path.join(basedir, "Packages_%s" % arch)
self.__log("Loading binary packages from %s" % filename)
Packages = apt_pkg.TagFile(open(filename))
get_field = Packages.section.get
step = Packages.step
while step():
pkg = get_field('Package')
version = get_field('Version')
# There may be multiple versions of any arch:all packages
# (in unstable) if some architectures have out-of-date
# binaries. We only ever consider the package with the
# largest version for migration.
if pkg in packages and apt_pkg.version_compare(packages[pkg][0], version) > 0:
continue
final_conflicts_list = []
conflicts = get_field('Conflicts')
if conflicts:
final_conflicts_list.append(conflicts)
breaks = get_field('Breaks')
if breaks:
final_conflicts_list.append(breaks)
dpkg = [version,
get_field('Section'),
pkg,
version,
get_field('Architecture'),
get_field('Pre-Depends'),
get_field('Depends'),
', '.join(final_conflicts_list) or None,
get_field('Provides'),
[],
[],
]
# retrieve the name and the version of the source package
source = get_field('Source')
if source:
dpkg[SOURCE] = source.split(" ")[0]
if "(" in source:
dpkg[SOURCEVER] = source[source.find("(")+1:source.find(")")]
# if the source package is available in the distribution, then register this binary package
if dpkg[SOURCE] in sources[distribution]:
sources[distribution][dpkg[SOURCE]][BINARIES].append(pkg + "/" + arch)
# if the source package doesn't exist, create a fake one
else:
sources[distribution][dpkg[SOURCE]] = [dpkg[SOURCEVER], 'faux', [pkg + "/" + arch], None, True]
# register virtual packages and real packages that provide them
if dpkg[PROVIDES]:
parts = map(string.strip, dpkg[PROVIDES].split(","))
for p in parts:
if p not in provides:
provides[p] = []
provides[p].append(pkg)
dpkg[PROVIDES] = parts
else: dpkg[PROVIDES] = []
# add the resulting dictionary to the package list
packages[pkg] = dpkg
# loop again on the list of packages to register reverse dependencies and conflicts
register_reverses = self.register_reverses
for pkg in packages:
register_reverses(pkg, packages, provides, check_doubles=False)
# return a tuple with the list of real and virtual packages
return (packages, provides)
def register_reverses(self, pkg, packages, provides, check_doubles=True, parse_depends=apt_pkg.parse_depends):
"""Register reverse dependencies and conflicts for the specified package
This method registers the reverse dependencies and conflicts for
a given package using `packages` as the list of packages and `provides`
as the list of virtual packages.
The method has an optional parameter parse_depends which is there
just for performance reasons and is not meant to be overwritten.
"""
# register the list of the dependencies for the depending packages
dependencies = []
if packages[pkg][DEPENDS]:
dependencies.extend(parse_depends(packages[pkg][DEPENDS], False))
if packages[pkg][PREDEPENDS]:
dependencies.extend(parse_depends(packages[pkg][PREDEPENDS], False))
# go through the list
for p in dependencies:
for a in p:
# register real packages
if a[0] in packages and (not check_doubles or pkg not in packages[a[0]][RDEPENDS]):
packages[a[0]][RDEPENDS].append(pkg)
# register packages which provide a virtual package
elif a[0] in provides:
for i in provides.get(a[0]):
if i not in packages: continue
if not check_doubles or pkg not in packages[i][RDEPENDS]:
packages[i][RDEPENDS].append(pkg)
# register the list of the conflicts for the conflicting packages
if packages[pkg][CONFLICTS]:
for p in parse_depends(packages[pkg][CONFLICTS], False):
for a in p:
# register real packages
if a[0] in packages and (not check_doubles or pkg not in packages[a[0]][RCONFLICTS]):
packages[a[0]][RCONFLICTS].append(pkg)
# register packages which provide a virtual package
elif a[0] in provides:
for i in provides[a[0]]:
if i not in packages: continue
if not check_doubles or pkg not in packages[i][RCONFLICTS]:
packages[i][RCONFLICTS].append(pkg)
def read_bugs(self, basedir):
"""Read the release critial bug summary from the specified directory
The RC bug summaries are read from the `BugsV' file within the
directory specified in the `basedir' parameter. The file contains
rows with the format:
<package-name> <bug number>[,<bug number>...]
The method returns a dictionary where the key is the binary package
name and the value is the list of open RC bugs for it.
"""
bugs = {}
filename = os.path.join(basedir, "BugsV")
self.__log("Loading RC bugs data from %s" % filename)
for line in open(filename):
l = line.split()
if len(l) != 2:
self.__log("Malformed line found in line %s" % (line), type='W')
continue
pkg = l[0]
bugs.setdefault(pkg, [])
bugs[pkg] += l[1].split(",")
return bugs
def write_bugs(self, basedir, bugs):
"""Write the release critical bug summary to the specified directory
For a more detailed explanation of the format, please check the method
read_bugs.
"""
filename = os.path.join(basedir, "BugsV")
self.__log("Writing RC bugs data to %s" % filename)
f = open(filename, 'w')
for pkg in sorted(bugs.keys()):
if not bugs[pkg]:
continue
f.write("%s %s\n" % (pkg, ','.join(bugs[pkg])))
f.close()
def __maxver(self, pkg, dist):
"""Return the maximum version for a given package name
This method returns None if the specified source package
is not available in the `dist' distribution. If the package
exists, then it returns the maximum version between the
source package and its binary packages.
"""
maxver = None
if pkg in self.sources[dist]:
maxver = self.sources[dist][pkg][VERSION]
for arch in self.options.architectures:
if pkg not in self.binaries[dist][arch][0]: continue
pkgv = self.binaries[dist][arch][0][pkg][VERSION]
if maxver == None or apt_pkg.version_compare(pkgv, maxver) > 0:
maxver = pkgv
return maxver
def normalize_bugs(self):
"""Normalize the release critical bug summaries for testing and unstable
The method doesn't return any value: it directly modifies the
object attribute `bugs'.
"""
# loop on all the package names from testing and unstable bug summaries
for pkg in set(self.bugs['testing'].keys() + self.bugs['unstable'].keys()):
# make sure that the key is present in both dictionaries
if pkg not in self.bugs['testing']:
self.bugs['testing'][pkg] = []
elif pkg not in self.bugs['unstable']:
self.bugs['unstable'][pkg] = []
if pkg.startswith("src:"):
pkg = pkg[4:]
# retrieve the maximum version of the package in testing:
maxvert = self.__maxver(pkg, 'testing')
# if the package is not available in testing, then reset
# the list of RC bugs
if maxvert == None:
self.bugs['testing'][pkg] = []
def read_dates(self, basedir):
"""Read the upload date for the packages from the specified directory
The upload dates are read from the `Dates' file within the directory
specified as `basedir' parameter. The file contains rows with the
format:
<package-name> <version> <date-of-upload>
The dates are expressed as days starting from the 1970-01-01.
The method returns a dictionary where the key is the binary package
name and the value is a tuple with two items, the version and the date.
"""
dates = {}
filename = os.path.join(basedir, "Dates")
self.__log("Loading upload data from %s" % filename)
for line in open(filename):
l = line.split()
if len(l) != 3: continue
try:
dates[l[0]] = (l[1], int(l[2]))
except ValueError:
self.__log("Dates, unable to parse \"%s\"" % line, type="E")
return dates
def write_dates(self, basedir, dates):
"""Write the upload date for the packages to the specified directory
For a more detailed explanation of the format, please check the method
read_dates.
"""
filename = os.path.join(basedir, "Dates")
self.__log("Writing upload data to %s" % filename)
f = open(filename, 'w')
for pkg in sorted(dates.keys()):
f.write("%s %s %d\n" % ((pkg,) + dates[pkg]))
f.close()
def read_urgencies(self, basedir):
"""Read the upload urgency of the packages from the specified directory
The upload urgencies are read from the `Urgency' file within the
directory specified as `basedir' parameter. The file contains rows
with the format:
<package-name> <version> <urgency>
The method returns a dictionary where the key is the binary package
name and the value is the greatest urgency from the versions of the
package that are higher then the testing one.
"""
urgencies = {}
filename = os.path.join(basedir, "Urgency")
self.__log("Loading upload urgencies from %s" % filename)
for line in open(filename):
l = line.split()
if len(l) != 3: continue
# read the minimum days associated with the urgencies
urgency_old = urgencies.get(l[0], self.options.default_urgency)
mindays_old = self.MINDAYS.get(urgency_old, self.MINDAYS[self.options.default_urgency])
mindays_new = self.MINDAYS.get(l[2], self.MINDAYS[self.options.default_urgency])
# if the new urgency is lower (so the min days are higher), do nothing
if mindays_old <= mindays_new:
continue
# if the package exists in testing and it is more recent, do nothing
tsrcv = self.sources['testing'].get(l[0], None)
if tsrcv and apt_pkg.version_compare(tsrcv[VERSION], l[1]) >= 0:
continue
# if the package doesn't exist in unstable or it is older, do nothing
usrcv = self.sources['unstable'].get(l[0], None)
if not usrcv or apt_pkg.version_compare(usrcv[VERSION], l[1]) < 0:
continue
# update the urgency for the package
urgencies[l[0]] = l[2]
return urgencies
def read_hints(self, basedir):
"""Read the hint commands from the specified directory
The hint commands are read from the files contained in the `Hints'
directory within the directory specified as `basedir' parameter.
The names of the files have to be the same as the authorized users
for the hints.
The file contains rows with the format:
<command> <package-name>[/<version>]
The method returns a dictionary where the key is the command, and
the value is the list of affected packages.
"""
hints = HintCollection()
for who in self.HINTS.keys():
if who == 'command-line':
lines = self.options.hints and self.options.hints.split(';') or ()
else:
filename = os.path.join(basedir, "Hints", who)
if not os.path.isfile(filename):
self.__log("Cannot read hints list from %s, no such file!" % filename, type="E")
continue
self.__log("Loading hints list from %s" % filename)
lines = open(filename)
for line in lines:
line = line.strip()
if line == "": continue
l = line.split()
if l[0] == 'finished':
break
elif l[0] not in self.HINTS[who]:
continue
elif len(l) == 1:
# All current hints require at least one argument
self.__log("Malformed hint found in %s: '%s'" % (filename, line), type="W")
elif l[0] in ["approve", "block", "block-all", "block-udeb", "unblock", "unblock-udeb", "force", "urgent", "remove"]:
for package in l[1:]:
hints.add_hint('%s %s' % (l[0], package), who)
elif l[0] in ["age-days"]:
for package in l[2:]:
hints.add_hint('%s %s %s' % (l[0], l[1], package), who)
else:
hints.add_hint(l, who)
for x in ["approve", "block", "block-all", "block-udeb", "unblock", "unblock-udeb", "force", "urgent", "remove", "age-days"]:
z = {}
for hint in hints[x]:
package = hint.package
key = (hint, hint.user)
if package in z and z[package] != key:
hint2 = z[package][0]
if x in ['unblock', 'unblock-udeb']:
if apt_pkg.version_compare(hint2.version, hint.version) < 0:
# This hint is for a newer version, so discard the old one
self.__log("Overriding %s[%s] = ('%s', '%s') with ('%s', '%s')" %
(x, package, hint2.version, hint2.user, hint.version, hint.user), type="W")
hint2.set_active(False)
else:
# This hint is for an older version, so ignore it in favour of the new one
self.__log("Ignoring %s[%s] = ('%s', '%s'), ('%s', '%s') is higher or equal" %
(x, package, hint.version, hint.user, hint2.version, hint2.user), type="W")
hint.set_active(False)
else:
self.__log("Overriding %s[%s] = ('%s', '%s', '%s') with ('%s', '%s', '%s')" %
(x, package, hint2.version, hint2.user, hint2.days,
hint.version, hint.user, hint.days), type="W")
hint2.set_active(False)
z[package] = key
# Sanity check the hints hash
if len(hints["block"]) == 0 and len(hints["block-udeb"]) == 0:
self.__log("WARNING: No block hints at all, not even udeb ones!", type="W")
# A (t-)p-u approval overrides an unstable block
for p in hints["approve"]:
for o in hints.search('unblock', package=p.package):
o.set_active(False)
hints.add_hint('unblock %s/%s' % (p.package, p.version), p.user)
return hints
def write_heidi(self, filename):
"""Write the output HeidiResult
This method write the output for Heidi, which contains all the
binary packages and the source packages in the form:
<pkg-name> <pkg-version> <pkg-architecture> <pkg-section>
<src-name> <src-version> source <src-section>
"""
self.__log("Writing Heidi results to %s" % filename)
f = open(filename, 'w')
# local copies
sources = self.sources['testing']
# write binary packages
for arch in sorted(self.options.architectures):
binaries = self.binaries['testing'][arch][0]
for pkg_name in sorted(binaries):
pkg = binaries[pkg_name]
pkgv = pkg[VERSION]
pkgarch = pkg[ARCHITECTURE] or 'all'
pkgsec = pkg[SECTION] or 'faux'
f.write('%s %s %s %s\n' % (pkg_name, pkgv, pkgarch, pkgsec))
# write sources
for src_name in sorted(sources):
src = sources[src_name]
srcv = src[VERSION]
srcsec = src[SECTION] or 'unknown'
f.write('%s %s source %s\n' % (src_name, srcv, srcsec))
f.close()
def write_controlfiles(self, basedir, suite):
"""Write the control files
This method writes the control files for the binary packages of all
the architectures and for the source packages.
"""
sources = self.sources[suite]
self.__log("Writing new %s control files to %s" % (suite, basedir))
for arch in self.options.architectures:
filename = os.path.join(basedir, 'Packages_%s' % arch)
f = open(filename, 'w')
binaries = self.binaries[suite][arch][0]
for pkg in binaries:
output = "Package: %s\n" % pkg
for key, k in ((SECTION, 'Section'), (ARCHITECTURE, 'Architecture'), (SOURCE, 'Source'), (VERSION, 'Version'),
(PREDEPENDS, 'Pre-Depends'), (DEPENDS, 'Depends'), (PROVIDES, 'Provides'), (CONFLICTS, 'Conflicts')):
if not binaries[pkg][key]: continue
if key == SOURCE:
if binaries[pkg][SOURCE] == pkg:
if binaries[pkg][SOURCEVER] != binaries[pkg][VERSION]:
source = binaries[pkg][SOURCE] + " (" + binaries[pkg][SOURCEVER] + ")"
else: continue
else:
if binaries[pkg][SOURCEVER] != binaries[pkg][VERSION]:
source = binaries[pkg][SOURCE] + " (" + binaries[pkg][SOURCEVER] + ")"
else:
source = binaries[pkg][SOURCE]
output += (k + ": " + source + "\n")
if sources[binaries[pkg][SOURCE]][MAINTAINER]:
output += ("Maintainer: " + sources[binaries[pkg][SOURCE]][MAINTAINER] + "\n")
elif key == PROVIDES:
if len(binaries[pkg][key]) > 0:
output += (k + ": " + ", ".join(binaries[pkg][key]) + "\n")
else:
output += (k + ": " + binaries[pkg][key] + "\n")
f.write(output + "\n")
f.close()
filename = os.path.join(basedir, 'Sources')
f = open(filename, 'w')
for src in sources:
output = "Package: %s\n" % src
for key, k in ((VERSION, 'Version'), (SECTION, 'Section'), (MAINTAINER, 'Maintainer')):
if not sources[src][key]: continue
output += (k + ": " + sources[src][key] + "\n")
f.write(output + "\n")
f.close()
def write_nuninst(self, nuninst):
"""Write the non-installable report"""
f = open(self.options.noninst_status, 'w')
f.write("Built on: " + time.strftime("%Y.%m.%d %H:%M:%S %z", time.gmtime(time.time())) + "\n")
f.write("Last update: " + time.strftime("%Y.%m.%d %H:%M:%S %z", time.gmtime(time.time())) + "\n\n")
f.write("".join([k + ": " + " ".join(nuninst[k]) + "\n" for k in nuninst]))
f.close()
def read_nuninst(self):
"""Read the non-installable report"""
f = open(self.options.noninst_status)
nuninst = {}
for r in f:
if ":" not in r: continue
arch, packages = r.strip().split(":", 1)
if arch.split("+", 1)[0] in self.options.architectures:
nuninst[arch] = set(packages.split())
return nuninst
# Utility methods for package analysis
# ------------------------------------
def same_source(self, sv1, sv2):
"""Check if two version numbers are built from the same source
This method returns a boolean value which is true if the two
version numbers specified as parameters are built from the same
source. The main use of this code is to detect binary-NMU.
"""
if sv1 == sv2:
return 1
m = re.match(r'^(.*)\+b\d+$', sv1)
if m: sv1 = m.group(1)
m = re.match(r'^(.*)\+b\d+$', sv2)
if m: sv2 = m.group(1)
if sv1 == sv2:
return 1
return 0
def get_dependency_solvers(self, block, arch, distribution):
"""Find the packages which satisfy a dependency block
This method returns the list of packages which satisfy a dependency
block (as returned by apt_pkg.parse_depends) for the given architecture
and distribution.
It returns a tuple with two items: the first is a boolean which is
True if the dependency is satisfied, the second is the list of the
solving packages.
"""
packages = []
# local copies for better performances
binaries = self.binaries[distribution][arch]
# for every package, version and operation in the block
for name, version, op in block:
# look for the package in unstable
if name in binaries[0]:
package = binaries[0][name]
# check the versioned dependency (if present)
if op == '' and version == '' or apt_pkg.check_dep(package[VERSION], op, version):
packages.append(name)
# look for the package in the virtual packages list and loop on them
for prov in binaries[1].get(name, []):
if prov not in binaries[0]: continue
package = binaries[0][prov]
# A provides only satisfies an unversioned dependency
# (per Policy Manual §7.5)
if op == '' and version == '':
packages.append(prov)
return (len(packages) > 0, packages)
def excuse_unsat_deps(self, pkg, src, arch, suite, excuse):
"""Find unsatisfied dependencies for a binary package
This method analyzes the dependencies of the binary package specified
by the parameter `pkg', built from the source package `src', for the
architecture `arch' within the suite `suite'. If the dependency can't
be satisfied in testing and/or unstable, it updates the excuse passed
as parameter.
The dependency fields checked are Pre-Depends and Depends.
"""
# retrieve the binary package from the specified suite and arch
binary_u = self.binaries[suite][arch][0][pkg]
# local copies for better performances
parse_depends = apt_pkg.parse_depends
get_dependency_solvers = self.get_dependency_solvers
# analyze the dependency fields (if present)
for type_key, type in ((PREDEPENDS, 'Pre-Depends'), (DEPENDS, 'Depends')):
if not binary_u[type_key]:
continue
# for every block of dependency (which is formed as conjunction of disconjunction)
for block, block_txt in zip(parse_depends(binary_u[type_key], False), binary_u[type_key].split(',')):
# if the block is satisfied in testing, then skip the block
solved, packages = get_dependency_solvers(block, arch, 'testing')
if solved:
for p in packages:
if p not in self.binaries[suite][arch][0]: continue
excuse.add_sane_dep(self.binaries[suite][arch][0][p][SOURCE])
continue
# check if the block can be satisfied in unstable, and list the solving packages
solved, packages = get_dependency_solvers(block, arch, suite)
packages = [self.binaries[suite][arch][0][p][SOURCE] for p in packages]
# if the dependency can be satisfied by the same source package, skip the block:
# obviously both binary packages will enter testing together
if src in packages: continue
# if no package can satisfy the dependency, add this information to the excuse
if len(packages) == 0:
excuse.addhtml("%s/%s unsatisfiable %s: %s" % (pkg, arch, type, block_txt.strip()))
continue
# for the solving packages, update the excuse to add the dependencies
for p in packages:
if arch not in self.options.break_arches.split():
excuse.add_dep(p, arch)
else:
excuse.add_break_dep(p, arch)
# Package analysis methods
# ------------------------
def should_remove_source(self, pkg):
"""Check if a source package should be removed from testing
This method checks if a source package should be removed from the
testing distribution; this happens if the source package is not
present in the unstable distribution anymore.
It returns True if the package can be removed, False otherwise.
In the former case, a new excuse is appended to the the object
attribute excuses.
"""
# if the source package is available in unstable, then do nothing
if pkg in self.sources['unstable']:
return False
# otherwise, add a new excuse for its removal and return True
src = self.sources['testing'][pkg]
excuse = Excuse("-" + pkg)
excuse.set_vers(src[VERSION], None)
src[MAINTAINER] and excuse.set_maint(src[MAINTAINER].strip())
src[SECTION] and excuse.set_section(src[SECTION].strip())
# if the package is blocked, skip it
for hint in self.hints.search('block', package=pkg, removal=True):
excuse.addhtml("Not touching package, as requested by %s (contact debian-release "
"if update is needed)" % hint.user)
excuse.addhtml("Not considered")
self.excuses.append(excuse)
return False
excuse.is_valid = True
self.excuses.append(excuse)
return True
def should_upgrade_srcarch(self, src, arch, suite):
"""Check if a binary package should be upgraded
This method checks if a binary package should be upgraded; this can
happen also if the binary package is a binary-NMU for the given arch.
The analysis is performed for the source package specified by the
`src' parameter, checking the architecture `arch' for the distribution
`suite'.
It returns False if the given package doesn't need to be upgraded,
True otherwise. In the former case, a new excuse is appended to
the the object attribute excuses.
"""
# retrieve the source packages for testing and suite
source_t = self.sources['testing'][src]
source_u = self.sources[suite][src]
# build the common part of the excuse, which will be filled by the code below
ref = "%s/%s%s" % (src, arch, suite != 'unstable' and "_" + suite or "")
excuse = Excuse(ref)
excuse.set_vers(source_t[VERSION], source_t[VERSION])
source_u[MAINTAINER] and excuse.set_maint(source_u[MAINTAINER].strip())
source_u[SECTION] and excuse.set_section(source_u[SECTION].strip())
# if there is a `remove' hint and the requested version is the same as the
# version in testing, then stop here and return False
for hint in [ x for x in self.hints.search('remove', package=src) if self.same_source(source_t[VERSION], x.version) ]:
excuse.addhtml("Removal request by %s" % (hint.user))
excuse.addhtml("Trying to remove package, not update it")
excuse.addhtml("Not considered")
self.excuses.append(excuse)
return False
# the starting point is that there is nothing wrong and nothing worth doing
anywrongver = False
anyworthdoing = False
# for every binary package produced by this source in unstable for this architecture
for pkg in sorted(filter(lambda x: x.endswith("/" + arch), source_u[BINARIES]), key=lambda x: x.split("/")[0]):
pkg_name = pkg.split("/")[0]
# retrieve the testing (if present) and unstable corresponding binary packages
binary_t = pkg in source_t[BINARIES] and self.binaries['testing'][arch][0][pkg_name] or None
binary_u = self.binaries[suite][arch][0][pkg_name]
# this is the source version for the new binary package
pkgsv = self.binaries[suite][arch][0][pkg_name][SOURCEVER]
# if the new binary package is architecture-independent, then skip it
if binary_u[ARCHITECTURE] == 'all':
excuse.addhtml("Ignoring %s %s (from %s) as it is arch: all" % (pkg_name, binary_u[VERSION], pkgsv))
continue
# if the new binary package is not from the same source as the testing one, then skip it
if not self.same_source(source_t[VERSION], pkgsv):
anywrongver = True
excuse.addhtml("From wrong source: %s %s (%s not %s)" % (pkg_name, binary_u[VERSION], pkgsv, source_t[VERSION]))
break
# find unsatisfied dependencies for the new binary package
self.excuse_unsat_deps(pkg_name, src, arch, suite, excuse)
# if the binary is not present in testing, then it is a new binary;
# in this case, there is something worth doing
if not binary_t:
excuse.addhtml("New binary: %s (%s)" % (pkg_name, binary_u[VERSION]))
anyworthdoing = True
continue
# at this point, the binary package is present in testing, so we can compare
# the versions of the packages ...
vcompare = apt_pkg.version_compare(binary_t[VERSION], binary_u[VERSION])
# ... if updating would mean downgrading, then stop here: there is something wrong
if vcompare > 0:
anywrongver = True
excuse.addhtml("Not downgrading: %s (%s to %s)" % (pkg_name, binary_t[VERSION], binary_u[VERSION]))
break
# ... if updating would mean upgrading, then there is something worth doing
elif vcompare < 0:
excuse.addhtml("Updated binary: %s (%s to %s)" % (pkg_name, binary_t[VERSION], binary_u[VERSION]))
anyworthdoing = True
# if there is nothing wrong and there is something worth doing or the source
# package is not fake, then check what packages should be removed
if not anywrongver and (anyworthdoing or not self.sources[suite][src][FAKESRC]):
srcv = self.sources[suite][src][VERSION]
ssrc = self.same_source(source_t[VERSION], srcv)
# for every binary package produced by this source in testing for this architecture
for pkg in sorted([x.split("/")[0] for x in self.sources['testing'][src][BINARIES] if x.endswith("/"+arch)]):
# if the package is architecture-independent, then ignore it
if self.binaries['testing'][arch][0][pkg][ARCHITECTURE] == 'all':
excuse.addhtml("Ignoring removal of %s as it is arch: all" % (pkg))
continue
# if the package is not produced by the new source package, then remove it from testing
if pkg not in self.binaries[suite][arch][0]:
tpkgv = self.binaries['testing'][arch][0][pkg][VERSION]
excuse.addhtml("Removed binary: %s %s" % (pkg, tpkgv))
if ssrc: anyworthdoing = True
# if there is nothing wrong and there is something worth doing, this is a valid candidate
if not anywrongver and anyworthdoing:
excuse.is_valid = True
self.excuses.append(excuse)
return True
# else if there is something worth doing (but something wrong, too) this package won't be considered
elif anyworthdoing:
excuse.addhtml("Not considered")
self.excuses.append(excuse)
# otherwise, return False
return False
def should_upgrade_src(self, src, suite):
"""Check if source package should be upgraded
This method checks if a source package should be upgraded. The analysis
is performed for the source package specified by the `src' parameter,
for the distribution `suite'.
It returns False if the given package doesn't need to be upgraded,
True otherwise. In the former case, a new excuse is appended to
the object attribute excuses.
"""
# retrieve the source packages for testing (if available) and suite
source_u = self.sources[suite][src]
if src in self.sources['testing']:
source_t = self.sources['testing'][src]
# if testing and unstable have the same version, then this is a candidate for binary-NMUs only
if apt_pkg.version_compare(source_t[VERSION], source_u[VERSION]) == 0:
return False
else:
source_t = None
# build the common part of the excuse, which will be filled by the code below
ref = "%s%s" % (src, suite != 'unstable' and "_" + suite or "")
excuse = Excuse(ref)
excuse.set_vers(source_t and source_t[VERSION] or None, source_u[VERSION])
source_u[MAINTAINER] and excuse.set_maint(source_u[MAINTAINER].strip())
source_u[SECTION] and excuse.set_section(source_u[SECTION].strip())
# the starting point is that we will update the candidate
update_candidate = True
# if the version in unstable is older, then stop here with a warning in the excuse and return False
if source_t and apt_pkg.version_compare(source_u[VERSION], source_t[VERSION]) < 0:
excuse.addhtml("ALERT: %s is newer in testing (%s %s)" % (src, source_t[VERSION], source_u[VERSION]))
self.excuses.append(excuse)
return False
# check if the source package really exists or if it is a fake one
if source_u[FAKESRC]:
excuse.addhtml("%s source package doesn't exist" % (src))
update_candidate = False
# retrieve the urgency for the upload, ignoring it if this is a NEW package (not present in testing)
urgency = self.urgencies.get(src, self.options.default_urgency)
if not source_t and urgency != self.options.default_urgency:
excuse.addhtml("Ignoring %s urgency setting for NEW package" % (urgency))
urgency = self.options.default_urgency
# if there is a `remove' hint and the requested version is the same as the
# version in testing, then stop here and return False
for item in self.hints.search('remove', package=src):
if source_t and self.same_source(source_t[VERSION], item.version) or \
self.same_source(source_u[VERSION], item.version):
excuse.addhtml("Removal request by %s" % (item.user))
excuse.addhtml("Trying to remove package, not update it")
update_candidate = False
# check if there is a `block' or `block-udeb' hint for this package, or a `block-all source' hint
blocked = {}
for hint in self.hints.search(package=src):
if hint.type == 'block':
blocked['block'] = hint
if hint.type == 'block-udeb':
blocked['block-udeb'] = hint
for hint in self.hints.search(type='block-all', package='source'):
blocked.setdefault('block', hint)
# if the source is blocked, then look for an `unblock' hint; the unblock request
# is processed only if the specified version is correct. If a package is blocked
# by `block-udeb', then `unblock-udeb' must be present to cancel it.
for block_cmd in blocked:
unblock_cmd = "un" + block_cmd
unblocks = self.hints.search(unblock_cmd, package=src)
if unblocks and self.same_source(unblocks[0].version, source_u[VERSION]):
excuse.addhtml("Ignoring %s request by %s, due to %s request by %s" %
(block_cmd, blocked[block_cmd].user, unblock_cmd, unblocks[0].user))
else:
if unblocks:
excuse.addhtml("%s request by %s ignored due to version mismatch: %s" %
(unblock_cmd.capitalize(), unblocks[0].user, unblocks[0].version))
excuse.addhtml("Not touching package due to %s request by %s (contact debian-release if update is needed)" %
(block_cmd, blocked[block_cmd].user))
update_candidate = False
# if the suite is unstable, then we have to check the urgency and the minimum days of
# permanence in unstable before updating testing; if the source package is too young,
# the check fails and we set update_candidate to False to block the update; consider
# the age-days hint, if specified for the package
if suite == 'unstable':
if src not in self.dates:
self.dates[src] = (source_u[VERSION], self.date_now)
elif not self.same_source(self.dates[src][0], source_u[VERSION]):
self.dates[src] = (source_u[VERSION], self.date_now)
days_old = self.date_now - self.dates[src][1]
min_days = self.MINDAYS[urgency]
for age_days_hint in [ x for x in self.hints.search('age-days', package=src) if \
self.same_source(source_u[VERSION], x.version) ]:
excuse.addhtml("Overriding age needed from %d days to %d by %s" % (min_days,
int(age_days_hint.days), age_days_hint.user))
min_days = int(age_days_hint.days)
excuse.setdaysold(days_old, min_days)
if days_old < min_days:
urgent_hints = [ x for x in self.hints.search('urgent', package=src) if \
self.same_source(source_u[VERSION], x.version) ]
if urgent_hints:
excuse.addhtml("Too young, but urgency pushed by %s" % (urgent_hints[0].user))
else:
update_candidate = False
if suite in ['pu', 'tpu']:
# o-o-d(ish) checks for (t-)p-u
for arch in self.options.architectures:
# If the package isn't in testing or the testing
# package produces no packages on this architecture,
# then it can't be out-of-date. We assume that if
# the (t-)p-u package has produced any binaries for
# this architecture then it is ok
if not src in self.sources["testing"] or \
(len([x for x in self.sources["testing"][src][BINARIES] if x.endswith("/"+arch) and self.binaries["testing"][arch][0][x.split("/")[0]][ARCHITECTURE] != 'all' ]) == 0) or \
(len([x for x in self.sources[suite][src][BINARIES] if x.endswith("/"+arch) and self.binaries[suite][arch][0][x.split("/")[0]][ARCHITECTURE] != 'all' ]) > 0):
continue
if suite == 'tpu':
base = 'testing'
else:
base = 'stable'
text = "Not yet built on <a href=\"http://buildd.debian.org/status/logs.php?arch=%s&pkg=%s&ver=%s&suite=%s\" target=\"_blank\">%s</a> (relative to testing)" % (urllib.quote(arch), urllib.quote(src), urllib.quote(source_u[VERSION]), base, arch)
if arch in self.options.fucked_arches.split():
text = text + " (but %s isn't keeping up, so never mind)" % (arch)
else:
update_candidate = False
excuse.addhtml(text)
# at this point, we check the status of the builds on all the supported architectures
# to catch the out-of-date ones
pkgs = {src: ["source"]}
for arch in self.options.architectures:
oodbins = {}
# for every binary package produced by this source in the suite for this architecture
for pkg in sorted([x.split("/")[0] for x in self.sources[suite][src][BINARIES] if x.endswith("/"+arch)]):
if pkg not in pkgs: pkgs[pkg] = []
pkgs[pkg].append(arch)
# retrieve the binary package and its source version
binary_u = self.binaries[suite][arch][0][pkg]
pkgsv = binary_u[SOURCEVER]
# if it wasn't built by the same source, it is out-of-date
if not self.same_source(source_u[VERSION], pkgsv):
if pkgsv not in oodbins:
oodbins[pkgsv] = []
oodbins[pkgsv].append(pkg)
continue
# if the package is architecture-dependent or the current arch is `nobreakall'
# find unsatisfied dependencies for the binary package
if binary_u[ARCHITECTURE] != 'all' or arch in self.options.nobreakall_arches.split():
self.excuse_unsat_deps(pkg, src, arch, suite, excuse)
# if there are out-of-date packages, warn about them in the excuse and set update_candidate
# to False to block the update; if the architecture where the package is out-of-date is
# in the `fucked_arches' list, then do not block the update
if oodbins:
oodtxt = ""
for v in oodbins.keys():
if oodtxt: oodtxt = oodtxt + "; "
oodtxt = oodtxt + "%s (from <a href=\"http://buildd.debian.org/status/logs.php?" \
"arch=%s&pkg=%s&ver=%s\" target=\"_blank\">%s</a>)" % \
(", ".join(sorted(oodbins[v])), urllib.quote(arch), urllib.quote(src), urllib.quote(v), v)
text = "out of date on <a href=\"http://buildd.debian.org/status/logs.php?" \
"arch=%s&pkg=%s&ver=%s\" target=\"_blank\">%s</a>: %s" % \
(urllib.quote(arch), urllib.quote(src), urllib.quote(source_u[VERSION]), arch, oodtxt)
if arch in self.options.fucked_arches.split():
text = text + " (but %s isn't keeping up, so nevermind)" % (arch)
else:
update_candidate = False
if self.date_now != self.dates[src][1]:
excuse.addhtml(text)
# if the source package has no binaries, set update_candidate to False to block the update
if len(self.sources[suite][src][BINARIES]) == 0:
excuse.addhtml("%s has no binaries on any arch" % src)
update_candidate = False
# if the suite is unstable, then we have to check the release-critical bug lists before
# updating testing; if the unstable package has RC bugs that do not apply to the testing
# one, the check fails and we set update_candidate to False to block the update
if suite == 'unstable':
for pkg in pkgs.keys():
bugs_t = []
bugs_u = []
if pkg in self.bugs['testing']:
bugs_t.extend(self.bugs['testing'][pkg])
if pkg in self.bugs['unstable']:
bugs_u.extend(self.bugs['unstable'][pkg])
if 'source' in pkgs[pkg]:
spkg = "src:%s" % (pkg)
if spkg in self.bugs['testing']:
bugs_t.extend(self.bugs['testing'][spkg])
if spkg in self.bugs['unstable']:
bugs_u.extend(self.bugs['unstable'][spkg])
new_bugs = sorted(set(bugs_u).difference(bugs_t))
old_bugs = sorted(set(bugs_t).difference(bugs_u))
if len(new_bugs) > 0:
excuse.addhtml("%s (%s) <a href=\"http://bugs.debian.org/cgi-bin/pkgreport.cgi?" \
"which=pkg&data=%s&sev-inc=critical&sev-inc=grave&sev-inc=serious\" " \
"target=\"_blank\">has new bugs</a>!" % (pkg, ", ".join(pkgs[pkg]), urllib.quote(pkg)))
excuse.addhtml("Updating %s introduces new bugs: %s" % (pkg, ", ".join(
["<a href=\"http://bugs.debian.org/%s\">#%s</a>" % (urllib.quote(a), a) for a in new_bugs])))
update_candidate = False
if len(old_bugs) > 0:
excuse.addhtml("Updating %s fixes old bugs: %s" % (pkg, ", ".join(
["<a href=\"http://bugs.debian.org/%s\">#%s</a>" % (urllib.quote(a), a) for a in old_bugs])))
if len(old_bugs) > len(new_bugs) and len(new_bugs) > 0:
excuse.addhtml("%s introduces new bugs, so still ignored (even "
"though it fixes more than it introduces, whine at debian-release)" % pkg)
# check if there is a `force' hint for this package, which allows it to go in even if it is not updateable
forces = [ x for x in self.hints.search('force', package=src) if self.same_source(source_u[VERSION], x.version) ]
if forces:
excuse.dontinvalidate = True
if not update_candidate and forces:
excuse.addhtml("Should ignore, but forced by %s" % (forces[0].user))
update_candidate = True
# if the suite is *-proposed-updates, the package needs an explicit approval in order to go in
if suite in ['tpu', 'pu']:
approves = [ x for x in self.hints.search('approve', package=src) if self.same_source(source_u[VERSION], x.version) ]
if approves:
excuse.addhtml("Approved by %s" % approves[0].user)
else:
excuse.addhtml("NEEDS APPROVAL BY RM")
update_candidate = False
# if the package can be updated, it is a valid candidate
if update_candidate:
excuse.is_valid = True
# else it won't be considered
else:
excuse.addhtml("Not considered")
self.excuses.append(excuse)
return update_candidate
def reversed_exc_deps(self):
"""Reverse the excuses dependencies
This method returns a dictionary where the keys are the package names
and the values are the excuse names which depend on it.
"""
res = {}
for exc in self.excuses:
for d in exc.deps:
if d not in res: res[d] = []
res[d].append(exc.name)
return res
def invalidate_excuses(self, valid, invalid):
"""Invalidate impossible excuses
This method invalidates the impossible excuses, which depend
on invalid excuses. The two parameters contains the list of
`valid' and `invalid' excuses.
"""
# build a lookup-by-name map
exclookup = {}
for e in self.excuses:
exclookup[e.name] = e
# build the reverse dependencies
revdeps = self.reversed_exc_deps()
# loop on the invalid excuses
i = 0
while i < len(invalid):
# if there is no reverse dependency, skip the item
if invalid[i] not in revdeps:
i += 1
continue
# if the dependency can be satisfied by a testing-proposed-updates excuse, skip the item
if (invalid[i] + "_tpu") in valid:
i += 1
continue
# loop on the reverse dependencies
for x in revdeps[invalid[i]]:
# if the item is valid and it is marked as `dontinvalidate', skip the item
if x in valid and exclookup[x].dontinvalidate:
continue
# otherwise, invalidate the dependency and mark as invalidated and
# remove the depending excuses
exclookup[x].invalidate_dep(invalid[i])
if x in valid:
p = valid.index(x)
invalid.append(valid.pop(p))
exclookup[x].addhtml("Invalidated by dependency")
exclookup[x].addhtml("Not considered")
exclookup[x].is_valid = False
i = i + 1
def write_excuses(self):
"""Produce and write the update excuses
This method handles the update excuses generation: the packages are
looked at to determine whether they are valid candidates. For the details
of this procedure, please refer to the module docstring.
"""
self.__log("Update Excuses generation started", type="I")
# list of local methods and variables (for better performance)
sources = self.sources
architectures = self.options.architectures
should_remove_source = self.should_remove_source
should_upgrade_srcarch = self.should_upgrade_srcarch
should_upgrade_src = self.should_upgrade_src
# this list will contain the packages which are valid candidates;
# if a package is going to be removed, it will have a "-" prefix
upgrade_me = []
# for every source package in testing, check if it should be removed
for pkg in sources['testing']:
if should_remove_source(pkg):
upgrade_me.append("-" + pkg)
# for every source package in unstable check if it should be upgraded
for pkg in sources['unstable']:
if sources['unstable'][pkg][FAKESRC]: continue
# if the source package is already present in testing,
# check if it should be upgraded for every binary package
if pkg in sources['testing'] and not sources['testing'][pkg][FAKESRC]:
for arch in architectures:
if should_upgrade_srcarch(pkg, arch, 'unstable'):
upgrade_me.append("%s/%s" % (pkg, arch))
# check if the source package should be upgraded
if should_upgrade_src(pkg, 'unstable'):
upgrade_me.append(pkg)
# for every source package in *-proposed-updates, check if it should be upgraded
for suite in ['pu', 'tpu']:
for pkg in sources[suite]:
# if the source package is already present in testing,
# check if it should be upgraded for every binary package
if pkg in sources['testing']:
for arch in architectures:
if should_upgrade_srcarch(pkg, arch, suite):
upgrade_me.append("%s/%s_%s" % (pkg, arch, suite))
# check if the source package should be upgraded
if should_upgrade_src(pkg, suite):
upgrade_me.append("%s_%s" % (pkg, suite))
# process the `remove' hints, if the given package is not yet in upgrade_me
for item in self.hints['remove']:
src = item.package
if src in upgrade_me: continue
if ("-"+src) in upgrade_me: continue
if src not in sources['testing']: continue
# check if the version specified in the hint is the same as the considered package
tsrcv = sources['testing'][src][VERSION]
if not self.same_source(tsrcv, item.version): continue
# add the removal of the package to upgrade_me and build a new excuse
upgrade_me.append("-%s" % (src))
excuse = Excuse("-%s" % (src))
excuse.set_vers(tsrcv, None)
excuse.addhtml("Removal request by %s" % (item.user))
excuse.addhtml("Package is broken, will try to remove")
self.excuses.append(excuse)
# sort the excuses by daysold and name
self.excuses.sort(key=attrgetter('daysold', 'name'))
# extract the not considered packages, which are in the excuses but not in upgrade_me
unconsidered = [e.name for e in self.excuses if e.name not in upgrade_me]
# invalidate impossible excuses
for e in self.excuses:
# parts[0] == package name
# parts[1] == optional architecture
parts = e.name.split('/')
for d in e.deps:
ok = False
# source -> source dependency; both packages must have
# valid excuses
if d in upgrade_me or d in unconsidered:
ok = True
# if the excuse is for a binNMU, also consider d/$arch as a
# valid excuse
elif len(parts) == 2:
bd = '%s/%s' % (d, parts[1])
if bd in upgrade_me or bd in unconsidered:
ok = True
# if the excuse is for a source package, check each of the
# architectures on which the excuse lists a dependency on d,
# and consider the excuse valid if it is possible on each
# architecture
else:
arch_ok = True
for arch in e.deps[d]:
bd = '%s/%s' % (d, arch)
if bd not in upgrade_me and bd not in unconsidered:
arch_ok = False
break
if arch_ok:
ok = True
if not ok:
e.addhtml("Impossible dependency: %s -> %s" % (e.name, d))
self.invalidate_excuses(upgrade_me, unconsidered)
# sort the list of candidates
self.upgrade_me = sorted([ MigrationItem(x) for x in upgrade_me ])
# write excuses to the output file
if not self.options.dry_run:
self.__log("> Writing Excuses to %s" % self.options.excuses_output, type="I")
f = open(self.options.excuses_output, 'w')
f.write("<!DOCTYPE HTML PUBLIC \"-//W3C//DTD HTML 4.01//EN\" \"http://www.w3.org/TR/REC-html40/strict.dtd\">\n")
f.write("<html><head><title>excuses...</title>")
f.write("<meta http-equiv=\"Content-Type\" content=\"text/html;charset=utf-8\"></head><body>\n")
f.write("<p>Generated: " + time.strftime("%Y.%m.%d %H:%M:%S %z", time.gmtime(time.time())) + "</p>\n")
f.write("<ul>\n")
for e in self.excuses:
f.write("<li>%s" % e.html())
f.write("</ul></body></html>\n")
f.close()
self.__log("Update Excuses generation completed", type="I")
# Upgrade run
# -----------
def newlyuninst(self, nuold, nunew):
"""Return a nuninst statstic with only new uninstallable packages
This method subtracts the uninstallable packages of the statistic
`nunew` from the statistic `nuold`.
It returns a dictionary with the architectures as keys and the list
of uninstallable packages as values.
"""
res = {}
for arch in nuold:
if arch not in nunew: continue
res[arch] = [x for x in nunew[arch] if x not in nuold[arch]]
return res
def get_nuninst(self, requested_arch=None, build=False):
"""Return the uninstallability statistic for all the architectures
To calculate the uninstallability counters, the method checks the
installability of all the packages for all the architectures, and
tracks dependencies in a recursive way. The architecture
independent packages are checked only for the `nobreakall`
architectures.
It returns a dictionary with the architectures as keys and the list
of uninstallable packages as values.
"""
# if we are not asked to build the nuninst, read it from the cache
if not build:
return self.read_nuninst()
nuninst = {}
# local copies for better performance
binaries = self.binaries['testing']
systems = self.systems
# for all the architectures
for arch in self.options.architectures:
if requested_arch and arch != requested_arch: continue
# if it is in the nobreakall ones, check arch-independent packages too
if arch not in self.options.nobreakall_arches.split():
skip_archall = True
else: skip_archall = False
# check all the packages for this architecture, calling add_nuninst if a new
# uninstallable package is found
nuninst[arch] = set()
for pkg_name in binaries[arch][0]:
r = systems[arch].is_installable(pkg_name)
if not r:
nuninst[arch].add(pkg_name)
# if they are not required, remove architecture-independent packages
nuninst[arch + "+all"] = nuninst[arch].copy()
if skip_archall:
for pkg in nuninst[arch + "+all"]:
bpkg = binaries[arch][0][pkg]
if bpkg[ARCHITECTURE] == 'all':
nuninst[arch].remove(pkg)
# return the dictionary with the results
return nuninst
def eval_nuninst(self, nuninst, original=None):
"""Return a string which represents the uninstallability counters
This method returns a string which represents the uninstallability
counters reading the uninstallability statistics `nuninst` and, if
present, merging the results with the `original` one.
An example of the output string is:
1+2: i-0:a-0:a-0:h-0:i-1:m-0:m-0:p-0:a-0:m-0:s-2:s-0
where the first part is the number of broken packages in non-break
architectures + the total number of broken packages for all the
architectures.
"""
res = []
total = 0
totalbreak = 0
for arch in self.options.architectures:
if arch in nuninst:
n = len(nuninst[arch])
elif original and arch in original:
n = len(original[arch])
else: continue
if arch in self.options.break_arches.split():
totalbreak = totalbreak + n
else:
total = total + n
res.append("%s-%d" % (arch[0], n))
return "%d+%d: %s" % (total, totalbreak, ":".join(res))
def eval_uninst(self, nuninst):
"""Return a string which represents the uninstallable packages
This method returns a string which represents the uninstallable
packages reading the uninstallability statistics `nuninst`.
An example of the output string is:
* i386: broken-pkg1, broken-pkg2
"""
parts = []
for arch in self.options.architectures:
if arch in nuninst and len(nuninst[arch]) > 0:
parts.append(" * %s: %s\n" % (arch,", ".join(sorted(nuninst[arch]))))
return "".join(parts)
def is_nuninst_asgood_generous(self, old, new):
diff = 0
for arch in self.options.architectures:
if arch in self.options.break_arches.split(): continue
diff = diff + (len(new[arch]) - len(old[arch]))
return diff <= 0
def doop_source(self, item, hint_undo=[]):
"""Apply a change to the testing distribution as requested by `pkg`
An optional list of undo actions related to packages processed earlier
in a hint may be passed in `hint_undo`.
This method applies the changes required by the action `item` tracking
them so it will be possible to revert them.
The method returns a list of the package name, the suite where the
package comes from, the set of packages affected by the change and
the dictionary undo which can be used to rollback the changes.
"""
undo = {'binaries': {}, 'sources': {}, 'virtual': {}, 'nvirtual': []}
affected = set()
# local copies for better performances
sources = self.sources
binaries = self.binaries['testing']
# remove all binary packages (if the source already exists)
if item.architecture == 'source' or not item.is_removal:
if item.package in sources['testing']:
source = sources['testing'][item.package]
bins = []
check = []
smoothbins = []
# remove all the binaries
# first, build a list of eligible binaries
for p in source[BINARIES]:
binary, parch = p.split("/")
if item.architecture != 'source' and parch != item.architecture: continue
# do not remove binaries which have been hijacked by other sources
if binaries[parch][0][binary][SOURCE] != item.package: continue
bins.append(p)
for p in bins:
binary, parch = p.split("/")
# if a smooth update is possible for the package, skip it
if item.suite == 'unstable' and \
binary not in self.binaries[item.suite][parch][0] and \
('ALL' in self.options.smooth_updates or \
binaries[parch][0][binary][SECTION] in self.options.smooth_updates):
# if the package has reverse-dependencies which are
# built from other sources, it's a valid candidate for
# a smooth update. if not, it may still be a valid
# candidate if one if its r-deps is itself a candidate,
# so note it for checking later
rdeps = binaries[parch][0][binary][RDEPENDS]
# the list of reverse-dependencies may be outdated
# if, for example, we're processing a hint and
# a new version of one of the apparent reverse-dependencies
# migrated earlier in the hint. walk the list to make
# sure that at least one of the entries is still
# valid
rrdeps = [x for x in rdeps if x not in [y.split("/")[0] for y in bins]]
if len(rrdeps) > 0:
for dep in rrdeps:
if dep in binaries[parch][0]:
bin = binaries[parch][0][dep]
deps = []
if bin[DEPENDS] is not None:
deps.extend(apt_pkg.parse_depends(bin[DEPENDS], False))
if bin[PREDEPENDS] is not None:
deps.extend(apt_pkg.parse_depends(bin[PREDEPENDS], False))
if any(binary == entry[0] for deplist in deps for entry in deplist):
smoothbins.append(p)
break
else:
check.append(p)
# check whether we should perform a smooth update for
# packages which are candidates but do not have r-deps
# outside of the current source
for p in check:
binary, parch = p.split("/")
rdeps = [ bin for bin in binaries[parch][0][binary][RDEPENDS] \
if bin in [y.split("/")[0] for y in smoothbins] ]
if len(rdeps) > 0:
smoothbins.append(p)
# remove all the binaries which aren't being smooth updated
for p in [ bin for bin in bins if bin not in smoothbins ]:
binary, parch = p.split("/")
# save the old binary for undo
undo['binaries'][p] = binaries[parch][0][binary]
# all the reverse dependencies are affected by the change
affected.update( [ (x, parch) for x in \
self.get_reverse_tree(binary, parch, 'testing') ] )
# remove the provided virtual packages
for j in binaries[parch][0][binary][PROVIDES]:
key = j + "/" + parch
if key not in undo['virtual']:
undo['virtual'][key] = binaries[parch][1][j][:]
binaries[parch][1][j].remove(binary)
if len(binaries[parch][1][j]) == 0:
del binaries[parch][1][j]
# finally, remove the binary package
del binaries[parch][0][binary]
self.systems[parch].remove_binary(binary)
# remove the source package
if item.architecture == 'source':
undo['sources'][item.package] = source
del sources['testing'][item.package]
else:
# the package didn't exist, so we mark it as to-be-removed in case of undo
undo['sources']['-' + item.package] = True
# single binary removal; used for clearing up after smooth
# updates but not supported as a manual hint
elif item.package in binaries[item.architecture][0]:
undo['binaries'][item.package + "/" + item.architecture] = binaries[item.architecture][0][item.package]
affected.update( [ (x, item.architecture) for x in \
self.get_reverse_tree(item.package, item.architecture, 'testing') ] )
del binaries[item.architecture][0][item.package]
self.systems[item.architecture].remove_binary(item.package)
# add the new binary packages (if we are not removing)
if not item.is_removal:
source = sources[item.suite][item.package]
for p in source[BINARIES]:
binary, parch = p.split("/")
if item.architecture not in ['source', parch]: continue
key = (binary, parch)
# obviously, added/modified packages are affected
if key not in affected: affected.add(key)
# if the binary already exists (built from another source)
if binary in binaries[parch][0]:
# save the old binary package
undo['binaries'][p] = binaries[parch][0][binary]
# all the reverse dependencies are affected by the change
affected.update( [ (x, parch) for x in \
self.get_reverse_tree(binary, parch, 'testing') ] )
# all the reverse conflicts and their dependency tree are affected by the change
for j in binaries[parch][0][binary][RCONFLICTS]:
key = (j, parch)
if key not in affected: affected.add(key)
for p in self.get_full_tree(j, parch, 'testing'):
key = (p, parch)
if key not in affected: affected.add(key)
self.systems[parch].remove_binary(binary)
else:
# if the binary was previously built by a different
# source package in testing, all of the reverse
# dependencies of the old binary are affected.
# reverse dependencies built from this source can be
# ignored as their reverse trees are already handled
# by this function
# XXX: and the reverse conflict tree?
for (tundo, tpkg) in hint_undo:
if p in tundo['binaries']:
for rdep in tundo['binaries'][p][RDEPENDS]:
if rdep in binaries[parch][0] and rdep not in source[BINARIES]:
affected.add( (rdep, parch) )
affected.update( [ (x, parch) for x in \
self.get_reverse_tree(rdep, parch, 'testing') ] )
# add/update the binary package
binaries[parch][0][binary] = self.binaries[item.suite][parch][0][binary]
self.systems[parch].add_binary(binary, binaries[parch][0][binary][:PROVIDES] + \
[", ".join(binaries[parch][0][binary][PROVIDES]) or None])
# register new provided packages
for j in binaries[parch][0][binary][PROVIDES]:
key = j + "/" + parch
if j not in binaries[parch][1]:
undo['nvirtual'].append(key)
binaries[parch][1][j] = []
elif key not in undo['virtual']:
undo['virtual'][key] = binaries[parch][1][j][:]
binaries[parch][1][j].append(binary)
# all the reverse dependencies are affected by the change
affected.update( [ (x, parch) for x in \
self.get_reverse_tree(binary, parch, 'testing') ] )
# register reverse dependencies and conflicts for the new binary packages
for p in source[BINARIES]:
binary, parch = p.split("/")
if item.architecture not in ['source', parch]: continue
self.register_reverses(binary, binaries[parch][0] , binaries[parch][1])
# add/update the source package
if item.architecture == 'source':
sources['testing'][item.package] = sources[item.suite][item.package]
# return the package name, the suite, the list of affected packages and the undo dictionary
return (item, affected, undo)
def get_reverse_tree(self, pkg, arch, suite):
binaries = self.binaries[suite][arch][0]
rev_deps = set(binaries[pkg][RDEPENDS])
seen = set()
while len(rev_deps) > 0:
# mark all of the current iteration of packages as affected
seen |= rev_deps
# generate the next iteration, which is the reverse-dependencies of
# the current iteration
new_rev_deps = [ binaries[x][RDEPENDS] for x in rev_deps \
if x in binaries ]
# flatten the list-of-lists, filtering out already handled packages
# in the process
rev_deps = set([ package for sublist in new_rev_deps \
for package in sublist if package not in seen ])
return seen
def get_full_tree(self, pkg, arch, suite):
"""Calculate the full dependency tree for the given package
This method returns the full dependency tree for the package `pkg`,
inside the `arch` architecture for the suite `suite`.
"""
packages = [pkg]
binaries = self.binaries[suite][arch][0]
if pkg in binaries:
l = n = 0
while len(packages) > l:
l = len(packages)
for p in packages[n:]:
packages.extend([x for x in binaries[p][RDEPENDS] if x not in packages and x in binaries])
n = l
return packages
else:
return []
def iter_packages(self, packages, selected, hint=False, nuninst=None):
"""Iter on the list of actions and apply them one-by-one
This method applies the changes from `packages` to testing, checking the uninstallability
counters for every action performed. If the action does not improve them, it is reverted.
The method returns the new uninstallability counters and the remaining actions if the
final result is successful, otherwise (None, None).
"""
extra = []
deferred = []
skipped = []
mark_passed = False
position = len(packages)
if nuninst:
nuninst_comp = nuninst.copy()
else:
nuninst_comp = self.nuninst_orig.copy()
# local copies for better performance
binaries = self.binaries['testing']
sources = self.sources
systems = self.systems
architectures = self.options.architectures
nobreakall_arches = self.options.nobreakall_arches.split()
new_arches = self.options.new_arches.split()
break_arches = self.options.break_arches.split()
dependencies = self.dependencies
# pre-process a hint batch
pre_process = {}
if selected and hint:
for package in selected:
pkg, affected, undo = self.doop_source(package)
pre_process[package] = (pkg, affected, undo)
lundo = []
if not hint:
self.output_write("recur: [%s] %s %d/%d\n" % ("", ",".join([x.uvname for x in selected]), len(packages), len(extra)))
# loop on the packages (or better, actions)
while packages:
pkg = packages.pop(0)
# this is the marker for the first loop
if not mark_passed and position < 0:
mark_passed = True
packages.extend(deferred)
del deferred
else: position -= 1
# defer packages if their dependency has been already skipped
if not mark_passed:
defer = False
for p in dependencies.get(pkg, []):
if p in skipped:
deferred.append(pkg)
skipped.append(pkg)
defer = True
break
if defer: continue
if not hint:
self.output_write("trying: %s\n" % (pkg))
better = True
nuninst = {}
# apply the changes
if pkg in pre_process:
item, affected, undo = pre_process[pkg]
else:
item, affected, undo = self.doop_source(pkg, lundo)
if hint:
lundo.append((undo, item))
# check the affected packages on all the architectures
for arch in (item.architecture == 'source' and architectures or (item.architecture,)):
if arch not in nobreakall_arches:
skip_archall = True
else: skip_archall = False
nuninst[arch] = set([x for x in nuninst_comp[arch] if x in binaries[arch][0]])
nuninst[arch + "+all"] = set([x for x in nuninst_comp[arch + "+all"] if x in binaries[arch][0]])
broken = nuninst[arch + "+all"]
to_check = []
# broken packages (first round)
for p in [x[0] for x in affected if x[1] == arch]:
if p not in binaries[arch][0]:
continue
nuninst_arch = None
if not (skip_archall and binaries[arch][0][p][ARCHITECTURE] == 'all'):
nuninst_arch = nuninst[arch]
self._installability_test(systems[arch], p, broken, to_check, nuninst_arch, pkg)
# broken packages (second round, reverse dependencies of the first round)
while to_check:
j = to_check.pop(0)
if j not in binaries[arch][0]: continue
for p in binaries[arch][0][j][RDEPENDS]:
if p in broken or p not in binaries[arch][0]:
continue
nuninst_arch = None
if not (skip_archall and binaries[arch][0][p][ARCHITECTURE] == 'all'):
nuninst_arch = nuninst[arch]
self._installability_test(systems[arch], p, broken, to_check, nuninst_arch, pkg)
# if we are processing hints, go ahead
if hint:
nuninst_comp[arch] = nuninst[arch]
nuninst_comp[arch + "+all"] = nuninst[arch + "+all"]
continue
# if the uninstallability counter is worse than before, break the loop
if ((item.architecture != 'source' and arch not in new_arches) or \
(arch not in break_arches)) and len(nuninst[arch]) > len(nuninst_comp[arch]):
better = False
break
# if we are processing hints or the package is already accepted, go ahead
if hint or item in selected: continue
# check if the action improved the uninstallability counters
if better:
lundo.append((undo, item))
selected.append(pkg)
packages.extend(extra)
extra = []
self.output_write("accepted: %s\n" % (pkg))
self.output_write(" ori: %s\n" % (self.eval_nuninst(self.nuninst_orig)))
self.output_write(" pre: %s\n" % (self.eval_nuninst(nuninst_comp)))
self.output_write(" now: %s\n" % (self.eval_nuninst(nuninst, nuninst_comp)))
if len(selected) <= 20:
self.output_write(" all: %s\n" % (" ".join([ x.uvname for x in selected ])))
else:
self.output_write(" most: (%d) .. %s\n" % (len(selected), " ".join([x.uvname for x in selected][-20:])))
for k in nuninst:
nuninst_comp[k] = nuninst[k]
else:
self.output_write("skipped: %s (%d <- %d)\n" % (pkg, len(extra), len(packages)))
self.output_write(" got: %s\n" % (self.eval_nuninst(nuninst, pkg.architecture != 'source' and nuninst_comp or None)))
self.output_write(" * %s: %s\n" % (arch, ", ".join(sorted([b for b in nuninst[arch] if b not in nuninst_comp[arch]]))))
extra.append(pkg)
if not mark_passed:
skipped.append(pkg)
single_undo = [(undo, item)]
# (local-scope) binaries is actually self.binaries["testing"] so we cannot use it here.
self.undo_changes(single_undo, systems, sources, self.binaries)
# if we are processing hints, return now
if hint:
return (nuninst_comp, [], lundo)
self.output_write(" finish: [%s]\n" % ",".join([ x.uvname for x in selected ]))
self.output_write("endloop: %s\n" % (self.eval_nuninst(self.nuninst_orig)))
self.output_write(" now: %s\n" % (self.eval_nuninst(nuninst_comp)))
self.output_write(self.eval_uninst(self.newlyuninst(self.nuninst_orig, nuninst_comp)))
self.output_write("\n")
return (nuninst_comp, extra, lundo)
def do_all(self, hinttype=None, init=None, actions=None):
"""Testing update runner
This method tries to update testing checking the uninstallability
counters before and after the actions to decide if the update was
successful or not.
"""
selected = []
if actions:
upgrade_me = actions[:]
else:
upgrade_me = self.upgrade_me[:]
nuninst_start = self.nuninst_orig
# these are special parameters for hints processing
undo = False
force = False
earlyabort = False
if hinttype == "easy" or hinttype == "force-hint":
force = hinttype == "force-hint"
earlyabort = True
# if we have a list of initial packages, check them
if init:
self.output_write("leading: %s\n" % (",".join([ x.uvname for x in init ])))
for x in init:
if x not in upgrade_me:
self.output_write("failed: %s\n" % (x.uvname))
return None
selected.append(x)
upgrade_me.remove(x)
self.output_write("start: %s\n" % self.eval_nuninst(nuninst_start))
if not force:
self.output_write("orig: %s\n" % self.eval_nuninst(nuninst_start))
if earlyabort:
extra = upgrade_me[:]
(nuninst_end, extra, lundo) = self.iter_packages(init, selected, hint=True)
undo = True
if force:
self.output_write("orig: %s\n" % self.eval_nuninst(nuninst_end))
self.output_write("easy: %s\n" % (self.eval_nuninst(nuninst_end)))
if not force:
self.output_write(self.eval_uninst(self.newlyuninst(nuninst_start, nuninst_end)) + "\n")
if not force and not self.is_nuninst_asgood_generous(self.nuninst_orig, nuninst_end):
nuninst_end, extra = None, None
else:
lundo = []
if init:
(nuninst_end, extra, tundo) = self.iter_packages(init, selected, hint=True)
lundo.extend(tundo)
undo = True
else: nuninst_end = None
(nuninst_end, extra, tundo) = self.iter_packages(upgrade_me, selected, nuninst=nuninst_end)
lundo.extend(tundo)
if not self.is_nuninst_asgood_generous(self.nuninst_orig, nuninst_end):
nuninst_end, extra = None, None
if nuninst_end:
if not force and not earlyabort:
self.output_write("Apparently successful\n")
self.output_write("final: %s\n" % ",".join(sorted([ x.uvname for x in selected ])))
self.output_write("start: %s\n" % self.eval_nuninst(nuninst_start))
if not force:
self.output_write(" orig: %s\n" % self.eval_nuninst(self.nuninst_orig))
else:
self.output_write(" orig: %s\n" % self.eval_nuninst(nuninst_end))
self.output_write(" end: %s\n" % self.eval_nuninst(nuninst_end))
if force:
self.output_write("force breaks:\n")
self.output_write(self.eval_uninst(self.newlyuninst(nuninst_start, nuninst_end)) + "\n")
self.output_write("SUCCESS (%d/%d)\n" % (len(actions or self.upgrade_me), len(extra)))
self.nuninst_orig = nuninst_end
if not actions:
if not earlyabort:
self.upgrade_me = sorted(extra)
else:
self.upgrade_me = [x for x in self.upgrade_me if x not in selected]
self.sort_actions()
else:
self.output_write("FAILED\n")
if not undo: return
self.undo_changes(lundo, self.systems, self.sources, self.binaries)
def undo_changes(self, lundo, systems, sources, binaries):
"""Undoes one or more changes to testing
* lundo is a list of (undo, item)-tuples
* systems is the britney-py.c system
* sources is the table of all source packages for all suites
* binaries is the table of all binary packages for all suites
and architectures
"""
# We do the undo process in "4 steps" and each step must be
# fully completed for each undo-item before starting on the
# next.
#
# see commit:ef71f0e33a7c3d8ef223ec9ad5e9843777e68133 and
# #624716 for the issues we had when we did not do this.
# STEP 1
# undo all the changes for sources
for (undo, item) in lundo:
for k in undo['sources'].keys():
if k[0] == '-':
del sources["testing"][k[1:]]
else:
sources["testing"][k] = undo['sources'][k]
# STEP 2
# undo all new binaries (consequence of the above)
for (undo, item) in lundo:
if not item.is_removal and item.package in sources[item.suite]:
for p in sources[item.suite][item.package][BINARIES]:
binary, arch = p.split("/")
if item.architecture in ['source', arch]:
del binaries["testing"][arch][0][binary]
systems[arch].remove_binary(binary)
# STEP 3
# undo all other binary package changes (except virtual packages)
for (undo, item) in lundo:
for p in undo['binaries'].keys():
binary, arch = p.split("/")
if binary[0] == "-":
del binaries['testing'][arch][0][binary[1:]]
systems[arch].remove_binary(binary[1:])
else:
binaries_t_a = binaries['testing'][arch][0]
binaries_t_a[binary] = undo['binaries'][p]
systems[arch].remove_binary(binary)
systems[arch].add_binary(binary, binaries_t_a[binary][:PROVIDES] + \
[", ".join(binaries_t_a[binary][PROVIDES]) or None])
# STEP 4
# undo all changes to virtual packages
for (undo, item) in lundo:
for p in undo['nvirtual']:
j, arch = p.split("/")
del binaries['testing'][arch][1][j]
for p in undo['virtual']:
j, arch = p.split("/")
if j[0] == '-':
del binaries['testing'][arch][1][j[1:]]
else:
binaries['testing'][arch][1][j] = undo['virtual'][p]
def upgrade_testing(self):
"""Upgrade testing using the unstable packages
This method tries to upgrade testing using the packages from unstable.
Before running the do_all method, it tries the easy and force-hint
commands.
"""
self.__log("Starting the upgrade test", type="I")
self.output_write("Generated on: %s\n" % (time.strftime("%Y.%m.%d %H:%M:%S %z", time.gmtime(time.time()))))
self.output_write("Arch order is: %s\n" % ", ".join(self.options.architectures))
self.__log("> Calculating current uninstallability counters", type="I")
self.nuninst_orig = self.get_nuninst()
# nuninst_orig may get updated during the upgrade process
self.nuninst_orig_save = self.get_nuninst()
if not self.options.actions:
# process `easy' hints
for x in self.hints['easy']:
self.do_hint("easy", x.user, x.packages)
# process `force-hint' hints
for x in self.hints["force-hint"]:
self.do_hint("force-hint", x.user, x.packages)
# run the first round of the upgrade
# - do separate runs for break arches
allpackages = []
normpackages = self.upgrade_me[:]
archpackages = {}
for a in self.options.break_arches.split():
archpackages[a] = [p for p in normpackages if p.architecture == a]
normpackages = [p for p in normpackages if p not in archpackages[a]]
self.upgrade_me = normpackages
self.output_write("info: main run\n")
self.do_all()
allpackages += self.upgrade_me
for a in self.options.break_arches.split():
backup = self.options.break_arches
self.options.break_arches = " ".join([x for x in self.options.break_arches.split() if x != a])
self.upgrade_me = archpackages[a]
self.output_write("info: broken arch run for %s\n" % (a))
self.do_all()
allpackages += self.upgrade_me
self.options.break_arches = backup
self.upgrade_me = allpackages
if self.options.actions:
self.printuninstchange()
return
# process `hint' hints
hintcnt = 0
for x in self.hints["hint"][:50]:
if hintcnt > 50:
self.output_write("Skipping remaining hints...")
break
if self.do_hint("hint", x.user, x.packages):
hintcnt += 1
# run the auto hinter
self.auto_hinter()
# obsolete source packages
self.__log("> Removing obsolete source packages from testing", type="I")
removals = []
sources = self.sources['testing']
removals = [ HintItem("-%s/%s" % (source, sources[source][VERSION])) for \
source in sources if len(sources[source][BINARIES]) == 0 ]
if len(removals) > 0:
self.output_write("Removing obsolete source packages from testing (%d):\n" % (len(removals)))
self.do_all(actions=removals)
# smooth updates
if len(self.options.smooth_updates) > 0:
self.__log("> Removing old packages left in testing from smooth updates", type="I")
removals = self.old_libraries()
if len(removals) > 0:
self.output_write("Removing packages left in testing for smooth updates (%d):\n%s" % \
(len(removals), self.old_libraries_format(removals)))
self.do_all(actions=[ MigrationItem(x) for x in removals ])
removals = self.old_libraries()
else:
removals = ()
self.output_write("List of old libraries in testing (%d):\n%s" % \
(len(removals), self.old_libraries_format(removals)))
# output files
if not self.options.dry_run:
# re-write control files
if self.options.control_files:
self.write_controlfiles(self.options.testing, 'testing')
# write dates
self.write_dates(self.options.testing, self.dates)
# write HeidiResult
self.write_heidi(self.options.heidi_output)
self.printuninstchange()
self.__log("Test completed!", type="I")
def printuninstchange(self):
self.__log("Checking for newly uninstallable packages", type="I")
text = self.eval_uninst(self.newlyuninst(
self.nuninst_orig_save, self.nuninst_orig))
if text != '':
self.output_write("\nNewly uninstallable packages in testing:\n%s" % \
(text))
def hint_tester(self):
"""Run a command line interface to test hints
This method provides a command line interface for the release team to
try hints and evaluate the results.
"""
self.__log("> Calculating current uninstallability counters", type="I")
self.nuninst_orig = self.get_nuninst()
self.nuninst_orig_save = self.get_nuninst()
import readline
from completer import Completer
histfile = os.path.expanduser('~/.britney2_history')
if os.path.exists(histfile):
readline.read_history_file(histfile)
readline.parse_and_bind('tab: complete')
readline.set_completer(Completer(self).completer)
# Package names can contain "-" and we use "/" in our presentation of them as well,
# so ensure readline does not split on these characters.
readline.set_completer_delims(readline.get_completer_delims().replace('-', '').replace('/', ''))
while True:
# read the command from the command line
try:
input = raw_input('britney> ').lower().split()
except EOFError:
print ""
break
except KeyboardInterrupt:
print ""
continue
# quit the hint tester
if input and input[0] in ('quit', 'exit'):
break
# run a hint
elif input and input[0] in ('easy', 'hint', 'force-hint'):
try:
self.do_hint(input[0], 'hint-tester',
[k.rsplit("/", 1) for k in input[1:] if "/" in k])
self.printuninstchange()
except KeyboardInterrupt:
continue
try:
readline.write_history_file(histfile)
except IOError, e:
self.__log("Could not write %s: %s" % (histfile, e), type="W")
def do_hint(self, hinttype, who, pkgvers):
"""Process hints
This method process `easy`, `hint` and `force-hint` hints. If the
requested version is not in unstable, then the hint is skipped.
"""
if isinstance(pkgvers[0], tuple) or isinstance(pkgvers[0], list):
_pkgvers = [ HintItem('%s/%s' % (p, v)) for (p,v) in pkgvers ]
else:
_pkgvers = pkgvers
self.__log("> Processing '%s' hint from %s" % (hinttype, who), type="I")
self.output_write("Trying %s from %s: %s\n" % (hinttype, who, " ".join( ["%s/%s" % (x.uvname, x.version) for x in _pkgvers])))
ok = True
# loop on the requested packages and versions
for idx in range(len(_pkgvers)):
pkg = _pkgvers[idx]
# skip removal requests
if pkg.is_removal:
continue
inunstable = pkg.package in self.sources['unstable']
rightversion = inunstable and (apt_pkg.version_compare(self.sources['unstable'][pkg.package][VERSION], pkg.version) == 0)
if pkg.suite == 'unstable' and not rightversion:
for suite in ['pu', 'tpu']:
if pkg.package in self.sources[suite] and apt_pkg.version_compare(self.sources[suite][pkg.package][VERSION], pkg.version) == 0:
pkg.suite = suite
_pkgvers[idx] = pkg
break
# handle *-proposed-updates
if pkg.suite in ['pu', 'tpu']:
if pkg.package not in self.sources[pkg.suite]: continue
if apt_pkg.version_compare(self.sources[pkg.suite][pkg.package][VERSION], pkg.version) != 0:
self.output_write(" Version mismatch, %s %s != %s\n" % (pkg.package, pkg.version, self.sources[pkg.suite][pkg.package][VERSION]))
ok = False
# does the package exist in unstable?
elif not inunstable:
self.output_write(" Source %s has no version in unstable\n" % pkg.package)
ok = False
elif not rightversion:
self.output_write(" Version mismatch, %s %s != %s\n" % (pkg.package, pkg.version, self.sources['unstable'][pkg.package][VERSION]))
ok = False
if not ok:
self.output_write("Not using hint\n")
return False
self.do_all(hinttype, _pkgvers)
return True
def sort_actions(self):
"""Sort actions in a smart way
This method sorts the list of actions in a smart way. In detail, it uses
as the base sort the number of days the excuse is old, then reorders packages
so the ones with most reverse dependencies are at the end of the loop.
If an action depends on another one, it is put after it.
"""
upgrade_me = [x.name for x in self.excuses if x.name in [y.uvname for y in self.upgrade_me]]
for e in self.excuses:
if e.name not in upgrade_me: continue
# try removes at the end of the loop
elif e.name[0] == '-':
upgrade_me.remove(e.name)
upgrade_me.append(e.name)
# otherwise, put it in a good position checking its dependencies
else:
pos = []
udeps = [upgrade_me.index(x) for x in e.deps if x in upgrade_me and x != e.name]
if len(udeps) > 0:
pos.append(max(udeps))
sdeps = [upgrade_me.index(x) for x in e.sane_deps if x in upgrade_me and x != e.name]
if len(sdeps) > 0:
pos.append(min(sdeps))
if len(pos) == 0: continue
upgrade_me.remove(e.name)
upgrade_me.insert(max(pos)+1, e.name)
self.dependencies[e.name] = e.deps
# replace the list of actions with the new one
self.upgrade_me = [ MigrationItem(x) for x in upgrade_me ]
def auto_hinter(self):
"""Auto-generate "easy" hints.
This method attempts to generate "easy" hints for sets of packages which
must migrate together. Beginning with a package which does not depend on
any other package (in terms of excuses), a list of dependencies and
reverse dependencies is recursively created.
Once all such lists have been generated, any which are subsets of other
lists are ignored in favour of the larger lists. The remaining lists are
then attempted in turn as "easy" hints.
We also try to auto hint circular dependencies analyzing the update
excuses relationships. If they build a circular dependency, which we already
know as not-working with the standard do_all algorithm, try to `easy` them.
"""
self.__log("> Processing hints from the auto hinter", type="I")
# consider only excuses which are valid candidates
excuses = dict([(x.name, x) for x in self.excuses if x.name in [y.uvname for y in self.upgrade_me]])
def find_related(e, hint, circular_first=False):
if e not in excuses:
return False
excuse = excuses[e]
if e in self.sources['testing'] and self.sources['testing'][e][VERSION] == excuse.ver[1]:
return True
if not circular_first:
hint[e] = excuse.ver[1]
if len(excuse.deps) == 0:
return hint
for p in excuse.deps:
if p in hint: continue
if not find_related(p, hint):
return False
return hint
# loop on them
candidates = []
mincands = []
for e in excuses:
excuse = excuses[e]
if e in self.sources['testing'] and self.sources['testing'][e][VERSION] == excuse.ver[1]:
continue
if len(excuse.deps) > 0:
hint = find_related(e, {}, True)
if isinstance(hint, dict) and e in hint and hint not in candidates:
candidates.append(hint.items())
else:
items = [ (e, excuse.ver[1]) ]
looped = False
for item, ver in items:
# excuses which depend on "item" or are depended on by it
items.extend( [ (x, excuses[x].ver[1]) for x in excuses if \
(item in excuses[x].deps or x in excuses[item].deps) \
and (x, excuses[x].ver[1]) not in items ] )
if not looped and len(items) > 1:
mincands.append(items[:])
looped = True
if len(items) > 1 and frozenset(items) != frozenset(mincands[-1]):
candidates.append(items)
for l in [ candidates, mincands ]:
to_skip = []
for i in range(len(l)):
for j in range(i+1, len(l)):
if i in to_skip or j in to_skip:
# we already know this list isn't interesting
continue
elif frozenset(l[i]) >= frozenset(l[j]):
# j is a subset of i; ignore it
to_skip.append(j)
elif frozenset(l[i]) <= frozenset(l[j]):
# i is a subset of j; ignore it
to_skip.append(i)
for i in range(len(l)):
if i not in to_skip:
self.do_hint("easy", "autohinter", [ HintItem("%s/%s" % (x[0], x[1])) for x in l[i] ])
def old_libraries(self):
"""Detect old libraries left in testing for smooth transitions
This method detects old libraries which are in testing but no longer
built from the source package: they are still there because other
packages still depend on them, but they should be removed as soon
as possible.
"""
sources = self.sources['testing']
testing = self.binaries['testing']
unstable = self.binaries['unstable']
removals = []
for arch in self.options.architectures:
for pkg_name in testing[arch][0]:
pkg = testing[arch][0][pkg_name]
if pkg_name not in unstable[arch][0] and \
not self.same_source(sources[pkg[SOURCE]][VERSION], pkg[SOURCEVER]):
removals.append("-" + pkg_name + "/" + arch)
return removals
def old_libraries_format(self, libs):
"""Format old libraries in a smart table"""
libraries = {}
for i in libs:
pkg, arch = i.split("/")
pkg = pkg[1:]
if pkg in libraries:
libraries[pkg].append(arch)
else:
libraries[pkg] = [arch]
return "\n".join([" " + k + ": " + " ".join(libraries[k]) for k in libraries]) + "\n"
def nuninst_arch_report(self, nuninst, arch):
"""Print a report of uninstallable packages for one architecture."""
all = {}
for p in nuninst[arch]:
pkg = self.binaries['testing'][arch][0][p]
all.setdefault((pkg[SOURCE], pkg[SOURCEVER]), set()).add(p)
print '* %s' % (arch,)
for (src, ver), pkgs in sorted(all.items()):
print ' %s (%s): %s' % (src, ver, ' '.join(sorted(pkgs)))
print
def output_write(self, msg):
"""Simple wrapper for output writing"""
print msg,
self.__output.write(msg)
def main(self):
"""Main method
This is the entry point for the class: it includes the list of calls
for the member methods which will produce the output files.
"""
# if running in --print-uninst mode, quit
if self.options.print_uninst:
return
# if no actions are provided, build the excuses and sort them
elif not self.options.actions:
self.write_excuses()
self.sort_actions()
# otherwise, use the actions provided by the command line
else:
self.upgrade_me = self.options.actions.split()
self.__output = open(self.options.upgrade_output, 'w')
# run the hint tester
if self.options.hint_tester:
self.hint_tester()
# run the upgrade test
else:
self.upgrade_testing()
self.__output.close()
def _installability_test(self, system, p, broken, to_check, nuninst_arch, current_pkg):
"""Test for installability of a package on an architecture
p is the package to check and system does the actual check.
broken is the set of broken packages. If p changes
installability (e.g. goes from uninstallable to installable),
broken will be updated accordingly. Furthermore, p will be
added to "to_check" for futher processing.
If nuninst_arch is not None then it also updated in the same
way as broken is.
current_pkg is the package currently being tried, mainly used
to print where an AIEEE is coming from.
"""
r = system.is_installable(p)
if r <= 0:
# AIEEE: print who's responsible for it
if r == -1:
sys.stderr.write("AIEEE triggered by: %s\n" % current_pkg)
# not installable
if p not in broken:
broken.add(p)
to_check.append(p)
if nuninst_arch is not None and p not in nuninst_arch:
nuninst_arch.add(p)
else:
if p in broken:
to_check.append(p)
broken.remove(p)
if nuninst_arch is not None and p in nuninst_arch:
nuninst_arch.remove(p)
if __name__ == '__main__':
Britney().main()
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